Comparison of dose distribution with and without reflecting heterogeneous boron distribution using F-BPA positron emission tomography in boron neutron capture therapy.

This study investigated the dosimetric impact of implementing heterogeneous boron distribution into dose evaluations on tumors in BNCT. The study involved 27 patients who underwent F-BPA PET/CT scans. Dose evaluations were performed using various methods reflecting boron concentrations on CT images. The conventional dose evaluations, which reflected uniform boron concentration in blood of 25 ppm and a constant tumor-to-blood (T/B) ratio of 3.5, were compared with individual dose evaluations, which reflected the blood boron concentration and T/B ratio calculated from F-BPA in each patient. The heterogeneous tumoral dose distribution was also compared, revealing the dosimetric impact of the boron distribution calculated from each voxel of F-BPA. The spatial correspondence between F-BPA and dose distribution was compared using metabolic tumor volume (MTV) from F-BPA and isodose volume from the heterogeneous dose distribution. Results showed that the median blood boron concentration and T/B ratio calculated from F-BPA were 25.57 (23.90-27.84) ppm and 3.75 (2.54-4.59), respectively, comparable to those in the conventional dose evaluations. All dose indices in the heterogeneous tumoral dose evaluations were significantly lower than those in the conventional dose evaluations (p < 0.01). However, the spatial correspondence between the F-BPA and the dose distribution was not observed in the dice similarity coefficients of both MTV40-40% isodose volume and MTV50-50% isodose volume. In conclusion, the study confirmed the validity of applying the boron concentration calculated from F-BPA to the dose evaluation for a patient in BNCT. The differences might be associated with non-inter-patient variations of F-BPA, but the conventional dose evaluations mainly focused on the high boron concentration area within the tumor. Furthermore, the discrepancies in the patients were also observed between the F-BPA distribution and the heterogeneous dose distribution. Therefore, this study suggested that the indications for BNCT should consider not only F-BPA but also the dose distributions, which could reflect the heterogeneous tumoral boron distribution.